Thermo-mechanical modelling and sensitivity analysis for metal-forming operations

This paper develops a numerical technique for determining the shape sensitivity parameters in steady metalforming processes such as drawing and rolling. The adjoint method is applied to the discrete non-linear system of equations in the finite element model in order to determine the discrete matrix

In complex forging processes, it is essential to "nd the optimal deformation path and the optimal preform shape that will lead to the desired "nal shape and service properties. A sensitivity analysis and optimization for preform billet shape in thermo-mechanical coupled simulation is developed in th

This paper presents a new approach for obtaining the distribution of temperature in the dies during thermo-mechanical numerical analysis of metal forming problems. The proposed approach is based on a solution resulting from the combination of the finite element method with the boundary element metho

A continuum sensitivity analysis is presented for large inelastic deformations and metal forming processes. The formulation is based on the di erentiation of the governing ÿeld equations of the direct problem and development of weak forms for the corresponding ÿeld sensitivity equations. Special att

A finite element (FE)-based approach is presented for the precision analysis of the thermo-mechanical behavior of the rolls and strip in hot strip rolling. Basic FE models for the analysis of the thermal behavior as well as those for the analysis of the mechanical behavior of each object--roll or st